IT9003537A1 - UNIDIRECTIONAL REGULATION VALVE OF THE INTERNAL OVERPRESSURE OF A CONTAINER. - Google Patents

Description

DESCRIPTION of the invention entitled "UNIDIRECTIONAL ADJUSTMENT VALVE FOR THE INTERNAL OVERPRESSURE OF A CONTAINER"

SUMMARY: The present invention relates to a valve for the unidirectional regulation of the internal overpressure of both rigid and

flexible. It allows the immediate venting of the developing gases

inside the containers after their hermetic closure. The valve in

object essentially consists of a membrane (2) with a peripheral edge

sealed into a groove (5) of the valve body (1).

The vent takes place through a central hole (3) of the membrane while the

sealing is optimized by a layer of silicone oil (7) or by the

presence of two pointed circles (10) and (11) which penetrate the body

membrane elastic (2).

FIELD OF THE TECHNIQUE: the present invention refers to the technical field of the construction of valves generally included in the INTERNATIONAL CLASSIFICATION F 16 K and can find advantageous applications in combination with rigid and flexible containers of the international classes B 65 B;

B 65 D; H O1 M and others in various applications in different sectors

product and technical.

STATE OF THE ART: various types and various applications of relief valves are known, such as, for example, those illustrated in German patents 11 95 830 and

23 60 126, applied indifferently to electric storage batteries

or to flexible packaging containers.

The use of silicone oil is known to optimize the sealing action of the elastic membranes in unidirectional breather valves. It is also known that in all the front valves the elastic diaphragm vents by rising at the edges. It is also known that the elastic diaphragm is bound to the valve body by means of protective covers. The present invention, on the other hand, proposes a valve with the member tightly bound along the entire peripheral edge but equipped with a central vent hole. A layer of silicone oil optimizes the seal both along the peripheral edge of the membrane and in correspondence with its central vent hole. In a modified version, the valve has an optimized seal by the existence on the valve body of two pointed circles which penetrate the elastic body of the diaphragm both along the entire peripheral edge and in correspondence with the vent hole.

DESCRIPTION: the invention is now clarified here with reference to embodiments illustrated by way of non-limiting example, in the attached drawing table in which: Figure 1 represents the valve in sealed conditions; Figure 2 shows the valve in vented conditions; Figures 3 and 4 show a modified version with two small circles on the valve body sealing seat, presenting as pointed annular protuberances to penetrate into the elastic body of the membrane. In the figures of the drawings the various details are marked as follows (1) indicates the valve body; (2) indicates the elastic membrane; (3) indicates the central hole of the membrane; (4) indicates the underlying seal site; (5) indicates a peripheral groove on the valve body into which the edge of the elastic membrane is sealed: (6) indicates a protrusion which retains the membrane wedged in the relative peripheral groove of the valve body; {7) indicates a layer of silicone oil;

(8) indicates the slits for the passage of gases through the valve body; (9) indicates a depression surrounding the sealing seat to facilitate the lifting of the membrane even for very small internal overpressures and this to increase the sensitivity to venting; (10) indicates a pointed circle protruding at the peripheral edge of the membrane; (11) indicates a small circle protruding from the seal seat around the diaphragm vent hole. The behavior of the valve is strictly unidirectional and only allows venting to the outside, simultaneously guaranteeing, whatever the relationship between internal and external pressure, the maximum degree of reliability, ensuring both a rapid venting action and an absolute guarantee of tightness. against the return from the external atmosphere. The operation of the valve is elementary: when the internal overpressure reaches the predetermined limit value, the same gases to be vented pass through the slits (8) and enter the depression (9) exerting a resulting force on the membrane (2) to lift it from the seat (4) and in this way said gases can escape through the vent hole (3). Simultaneously, after venting, the membrane is recalled to adhere to its sealing seat (4) by the elastic reaction of its deformation. In the version illustrated in Figures 3 and 4, the sealing seat is constituted by the protrusion of the bead 11 around the vent hole (3), while the seal along the entire peripheral edge of the membrane (2) is made by the pointed projection of the bead ( 10). The efficiency of the sealing action, as well as the rapidity of opening and closing of the valve are optimized by the presence of an intermediate layer of silicone oil between the elastic membrane and the valve body.

In fact, the silicone oil also intervenes to accelerate the reestablishment of the hermetic closure of the valve, simultaneously preventing the return penetration of oxygen from the external atmosphere. The venting action limits the accumulation of gases released in the contents in order to avoid the creation of even small overpressures inside the containers.

At the same time, the valve also guarantees against any return penetration from the external atmosphere both during venting and after reaching the equilibrium conditions and also in the presence of any external overpressures. Naturally, the invention is susceptible of various variations of practical embodiment both as regards the structural proportioning of the valve body and the elastic membrane as well as the technological choices of the materials used in their manufacture. Therefore, all the valves obtained by exploiting the inventive principle described above and having the characteristics substantially described and illustrated will fall within the scope of protection of the present invention. in the specific branch will be able to realize, with simple design applications not involving any inventive effort, unidirectional relief valves having the advantages described above and illustrated with the peculiar characteristics set out below

Claims (5)

R I V E N D I C A Z I O N I 1) UNIDIRECTIONAL ADJUSTMENT VALVE OF THE INTERNAL OVERPRESSURE OF A CONTAINER, characterized by an elastic membrane (2) resting on a flat seat (4) of a valve body (1) in correspondence with a hole (3) through which the vent takes place even of small internal overpressures. 2) UNIDIRECTIONAL ADJUSTMENT VALVE FOR THE INTERNAL OVERPRESSURE OF A CONTAINER, as in the previous claim, characterized in that the membrane (2) has its peripheral edge sealed in a groove (5) of the valve body 1). 3) UNIDIRECTIONAL ADJUSTMENT VALVE FOR THE INTERNAL OVERPRESSURE OF A CONTAINER, as per the preceding claims, characterized in that the sealing seat (4) is coated with silicone oil (7). 4) UNIDIRECTIONAL ADJUSTMENT VALVE OF THE INTERNAL OVERPRESSURE OF A CONTAINER, as in the previous claims, characterized by the fact that on the valve body (1), around the seal seat (4), there is a depression (9) which sensitizes the lifting of the membrane (2) also for small internal overpressures of the gases to be vented to the outside. 5) UNIDIRECTIONAL ADJUSTMENT VALVE OF THE INTERNAL OVERPRESSURE OF A CONTAINER, as previously claimed, characterized by the fact that the valve body (1) has two pointed annular projections (10) and (11) to seal the membrane (2) both on the peripheral edge and on the central area in correspondence with the vent hole (3).